#include <test/jtx.h>

#include <xrpl/protocol/Feature.h>
#include <xrpl/protocol/Quality.h>
#include <xrpl/protocol/jss.h>

#include <initializer_list>

namespace ripple {
namespace test {

class ReducedOffer_test : public beast::unit_test::suite
{
    static auto
    ledgerEntryOffer(
        jtx::Env& env,
        jtx::Account const& acct,
        std::uint32_t offer_seq)
    {
        Json::Value jvParams;
        jvParams[jss::offer][jss::account] = acct.human();
        jvParams[jss::offer][jss::seq] = offer_seq;
        return env.rpc(
            "json", "ledger_entry", to_string(jvParams))[jss::result];
    }

    static bool
    offerInLedger(
        jtx::Env& env,
        jtx::Account const& acct,
        std::uint32_t offerSeq)
    {
        Json::Value ledgerOffer = ledgerEntryOffer(env, acct, offerSeq);
        return !(
            ledgerOffer.isMember(jss::error) &&
            ledgerOffer[jss::error].asString() == "entryNotFound");
    }

    // Common code to clean up unneeded offers.
    static void
    cleanupOldOffers(
        jtx::Env& env,
        std::initializer_list<std::pair<jtx::Account const&, std::uint32_t>>
            list)
    {
        for (auto [acct, offerSeq] : list)
            env(offer_cancel(acct, offerSeq));
        env.close();
    }

public:
    void
    testPartialCrossNewXrpIouQChange()
    {
        testcase("exercise partial cross new XRP/IOU offer Q change");

        using namespace jtx;

        auto const gw = Account{"gateway"};
        auto const alice = Account{"alice"};
        auto const bob = Account{"bob"};
        auto const USD = gw["USD"];

        {
            Env env{*this, testable_amendments()};

            // Make sure none of the offers we generate are under funded.
            env.fund(XRP(10'000'000), gw, alice, bob);
            env.close();

            env(trust(alice, USD(10'000'000)));
            env(trust(bob, USD(10'000'000)));
            env.close();

            env(pay(gw, bob, USD(10'000'000)));
            env.close();

            // Lambda that:
            //  1. Exercises one offer pair,
            //  2. Collects the results, and
            //  3. Cleans up for the next offer pair.
            // Returns 1 if the crossed offer has a bad rate for the book.
            auto exerciseOfferPair =
                [this, &env, &alice, &bob](
                    Amounts const& inLedger,
                    Amounts const& newOffer) -> unsigned int {
                // Put inLedger offer in the ledger so newOffer can cross it.
                std::uint32_t const aliceOfferSeq = env.seq(alice);
                env(offer(alice, inLedger.in, inLedger.out));
                env.close();

                // Now alice's offer will partially cross bob's offer.
                STAmount const initialRate = Quality(newOffer).rate();
                std::uint32_t const bobOfferSeq = env.seq(bob);
                STAmount const bobInitialBalance = env.balance(bob);
                STAmount const bobsFee = env.current()->fees().base;
                env(offer(bob, newOffer.in, newOffer.out, tfSell),
                    fee(bobsFee));
                env.close();
                STAmount const bobFinalBalance = env.balance(bob);

                // alice's offer should be fully crossed and so gone from
                // the ledger.
                if (!BEAST_EXPECT(!offerInLedger(env, alice, aliceOfferSeq)))
                    // If the in-ledger offer was not consumed then further
                    // results are meaningless.
                    return 1;

                // bob's offer should be in the ledger, but reduced in size.
                unsigned int badRate = 1;
                {
                    Json::Value bobOffer =
                        ledgerEntryOffer(env, bob, bobOfferSeq);

                    STAmount const reducedTakerGets = amountFromJson(
                        sfTakerGets, bobOffer[jss::node][sfTakerGets.jsonName]);
                    STAmount const reducedTakerPays = amountFromJson(
                        sfTakerPays, bobOffer[jss::node][sfTakerPays.jsonName]);
                    STAmount const bobGot =
                        env.balance(bob) + bobsFee - bobInitialBalance;
                    BEAST_EXPECT(reducedTakerPays < newOffer.in);
                    BEAST_EXPECT(reducedTakerGets < newOffer.out);
                    STAmount const inLedgerRate =
                        Quality(Amounts{reducedTakerPays, reducedTakerGets})
                            .rate();

                    badRate = inLedgerRate > initialRate ? 1 : 0;

                    // If the inLedgerRate is less than initial rate, then
                    // incrementing the mantissa of the reduced taker pays
                    // should result in a rate higher than initial.  Check
                    // this to verify that the largest allowable TakerPays
                    // was computed.
                    if (badRate == 0)
                    {
                        STAmount const tweakedTakerPays =
                            reducedTakerPays + drops(1);
                        STAmount const tweakedRate =
                            Quality(Amounts{tweakedTakerPays, reducedTakerGets})
                                .rate();
                        BEAST_EXPECT(tweakedRate > initialRate);
                    }
#if 0
                    std::cout << "Placed rate: " << initialRate
                              << "; in-ledger rate: " << inLedgerRate
                              << "; TakerPays: " << reducedTakerPays
                              << "; TakerGets: " << reducedTakerGets
                              << "; bob already got: " << bobGot << std::endl;
// #else
                    std::string_view filler =
                        inLedgerRate > initialRate ? "**" : "  ";
                    std::cout << "| `" << reducedTakerGets << "` | `"
                              << reducedTakerPays << "` | `" << initialRate
                              << "` | " << filler << "`" << inLedgerRate << "`"
                              << filler << " |`" << std::endl;
#endif
                }

                // In preparation for the next iteration make sure the two
                // offers are gone from the ledger.
                cleanupOldOffers(
                    env, {{alice, aliceOfferSeq}, {bob, bobOfferSeq}});
                return badRate;
            };

            // bob's offer (the new offer) is the same every time:
            Amounts const bobsOffer{
                STAmount(XRP(1)), STAmount(USD.issue(), 1, 0)};

            // alice's offer has a slightly smaller TakerPays with each
            // iteration.  This should mean that the size of the offer bob
            // places in the ledger should increase with each iteration.
            unsigned int blockedCount = 0;
            for (std::uint64_t mantissaReduce = 1'000'000'000ull;
                 mantissaReduce <= 5'000'000'000ull;
                 mantissaReduce += 20'000'000ull)
            {
                STAmount aliceUSD{
                    bobsOffer.out.issue(),
                    bobsOffer.out.mantissa() - mantissaReduce,
                    bobsOffer.out.exponent()};
                STAmount aliceXRP{
                    bobsOffer.in.issue(), bobsOffer.in.mantissa() - 1};
                Amounts alicesOffer{aliceUSD, aliceXRP};
                blockedCount += exerciseOfferPair(alicesOffer, bobsOffer);
            }

            // None of the test cases should produce a potentially blocking
            // rate.
            BEAST_EXPECT(blockedCount == 0);
        }
    }

    void
    testPartialCrossOldXrpIouQChange()
    {
        testcase("exercise partial cross old XRP/IOU offer Q change");

        using namespace jtx;

        auto const gw = Account{"gateway"};
        auto const alice = Account{"alice"};
        auto const bob = Account{"bob"};
        auto const USD = gw["USD"];

        {
            // Make sure none of the offers we generate are under funded.
            Env env{*this, testable_amendments()};
            env.fund(XRP(10'000'000), gw, alice, bob);
            env.close();

            env(trust(alice, USD(10'000'000)));
            env(trust(bob, USD(10'000'000)));
            env.close();

            env(pay(gw, alice, USD(10'000'000)));
            env.close();

            // Lambda that:
            //  1. Exercises one offer pair,
            //  2. Collects the results, and
            //  3. Cleans up for the next offer pair.
            auto exerciseOfferPair =
                [this, &env, &alice, &bob](
                    Amounts const& inLedger,
                    Amounts const& newOffer) -> unsigned int {
                // Get the inLedger offer into the ledger so newOffer can cross
                // it.
                STAmount const initialRate = Quality(inLedger).rate();
                std::uint32_t const aliceOfferSeq = env.seq(alice);
                env(offer(alice, inLedger.in, inLedger.out));
                env.close();

                // Now bob's offer will partially cross alice's offer.
                std::uint32_t const bobOfferSeq = env.seq(bob);
                STAmount const aliceInitialBalance = env.balance(alice);
                env(offer(bob, newOffer.in, newOffer.out));
                env.close();
                STAmount const aliceFinalBalance = env.balance(alice);

                // bob's offer should not have made it into the ledger.
                if (!BEAST_EXPECT(!offerInLedger(env, bob, bobOfferSeq)))
                {
                    // If the in-ledger offer was not consumed then further
                    // results are meaningless.
                    cleanupOldOffers(
                        env, {{alice, aliceOfferSeq}, {bob, bobOfferSeq}});
                    return 1;
                }
                // alice's offer should still be in the ledger, but reduced in
                // size.
                unsigned int badRate = 1;
                {
                    Json::Value aliceOffer =
                        ledgerEntryOffer(env, alice, aliceOfferSeq);

                    STAmount const reducedTakerGets = amountFromJson(
                        sfTakerGets,
                        aliceOffer[jss::node][sfTakerGets.jsonName]);
                    STAmount const reducedTakerPays = amountFromJson(
                        sfTakerPays,
                        aliceOffer[jss::node][sfTakerPays.jsonName]);
                    STAmount const aliceGot =
                        env.balance(alice) - aliceInitialBalance;
                    BEAST_EXPECT(reducedTakerPays < inLedger.in);
                    BEAST_EXPECT(reducedTakerGets < inLedger.out);
                    STAmount const inLedgerRate =
                        Quality(Amounts{reducedTakerPays, reducedTakerGets})
                            .rate();
                    badRate = inLedgerRate > initialRate ? 1 : 0;

                    // If the inLedgerRate is less than initial rate, then
                    // incrementing the mantissa of the reduced taker pays
                    // should result in a rate higher than initial.  Check
                    // this to verify that the largest allowable TakerPays
                    // was computed.
                    if (badRate == 0)
                    {
                        STAmount const tweakedTakerPays =
                            reducedTakerPays + drops(1);
                        STAmount const tweakedRate =
                            Quality(Amounts{tweakedTakerPays, reducedTakerGets})
                                .rate();
                        BEAST_EXPECT(tweakedRate > initialRate);
                    }
#if 0
                    std::cout << "Placed rate: " << initialRate
                              << "; in-ledger rate: " << inLedgerRate
                              << "; TakerPays: " << reducedTakerPays
                              << "; TakerGets: " << reducedTakerGets
                              << "; alice already got: " << aliceGot
                              << std::endl;
// #else
                    std::string_view filler = badRate ? "**" : "  ";
                    std::cout << "| `" << reducedTakerGets << "` | `"
                              << reducedTakerPays << "` | `" << initialRate
                              << "` | " << filler << "`" << inLedgerRate << "`"
                              << filler << " | `" << aliceGot << "` |"
                              << std::endl;
#endif
                }

                // In preparation for the next iteration make sure the two
                // offers are gone from the ledger.
                cleanupOldOffers(
                    env, {{alice, aliceOfferSeq}, {bob, bobOfferSeq}});
                return badRate;
            };

            // alice's offer (the old offer) is the same every time:
            Amounts const aliceOffer{
                STAmount(XRP(1)), STAmount(USD.issue(), 1, 0)};

            // bob's offer has a slightly smaller TakerPays with each iteration.
            // This should mean that the size of the offer alice leaves in the
            // ledger should increase with each iteration.
            unsigned int blockedCount = 0;
            for (std::uint64_t mantissaReduce = 1'000'000'000ull;
                 mantissaReduce <= 4'000'000'000ull;
                 mantissaReduce += 20'000'000ull)
            {
                STAmount bobUSD{
                    aliceOffer.out.issue(),
                    aliceOffer.out.mantissa() - mantissaReduce,
                    aliceOffer.out.exponent()};
                STAmount bobXRP{
                    aliceOffer.in.issue(), aliceOffer.in.mantissa() - 1};
                Amounts bobsOffer{bobUSD, bobXRP};

                blockedCount += exerciseOfferPair(aliceOffer, bobsOffer);
            }

            // None of the test cases should produce a potentially blocking
            // rate.
            BEAST_EXPECT(blockedCount == 0);
        }
    }

    void
    testUnderFundedXrpIouQChange()
    {
        testcase("exercise underfunded XRP/IOU offer Q change");

        // Bob places an offer that is not fully funded.

        using namespace jtx;
        auto const alice = Account{"alice"};
        auto const bob = Account{"bob"};
        auto const gw = Account{"gw"};
        auto const USD = gw["USD"];

        {
            Env env{*this, testable_amendments()};

            env.fund(XRP(10000), alice, bob, gw);
            env.close();
            env.trust(USD(1000), alice, bob);

            int blockedOrderBookCount = 0;
            for (STAmount initialBobUSD = USD(0.45); initialBobUSD <= USD(1);
                 initialBobUSD += USD(0.025))
            {
                // underfund bob's offer
                env(pay(gw, bob, initialBobUSD));
                env.close();

                std::uint32_t const bobOfferSeq = env.seq(bob);
                env(offer(bob, drops(2), USD(1)));
                env.close();

                // alice places an offer that would cross bob's if bob's were
                // well funded.
                std::uint32_t const aliceOfferSeq = env.seq(alice);
                env(offer(alice, USD(1), drops(2)));
                env.close();

                // We want to detect order book blocking.  If:
                //  1. bob's offer is still in the ledger and
                //  2. alice received no USD
                // then we use that as evidence that bob's offer blocked the
                // order book.
                {
                    bool const bobsOfferGone =
                        !offerInLedger(env, bob, bobOfferSeq);
                    STAmount const aliceBalanceUSD = env.balance(alice, USD);

                    // Sanity check the ledger if alice got USD.
                    if (aliceBalanceUSD.signum() > 0)
                    {
                        BEAST_EXPECT(aliceBalanceUSD == initialBobUSD);
                        BEAST_EXPECT(env.balance(bob, USD) == USD(0));
                        BEAST_EXPECT(bobsOfferGone);
                    }

                    // Track occurrences of order book blocking.
                    if (!bobsOfferGone && aliceBalanceUSD.signum() == 0)
                    {
                        ++blockedOrderBookCount;
                    }

                    // In preparation for the next iteration clean up any
                    // leftover offers.
                    cleanupOldOffers(
                        env, {{alice, aliceOfferSeq}, {bob, bobOfferSeq}});

                    // Zero out alice's and bob's USD balances.
                    if (STAmount const aliceBalance = env.balance(alice, USD);
                        aliceBalance.signum() > 0)
                        env(pay(alice, gw, aliceBalance));

                    if (STAmount const bobBalance = env.balance(bob, USD);
                        bobBalance.signum() > 0)
                        env(pay(bob, gw, bobBalance));

                    env.close();
                }
            }

            // None of the test cases should produce a potentially blocking
            // rate.
            BEAST_EXPECT(blockedOrderBookCount == 0);
        }
    }

    void
    testUnderFundedIouIouQChange()
    {
        testcase("exercise underfunded IOU/IOU offer Q change");

        // Bob places an IOU/IOU offer that is not fully funded.

        using namespace jtx;
        using namespace std::chrono_literals;
        auto const alice = Account{"alice"};
        auto const bob = Account{"bob"};
        auto const gw = Account{"gw"};

        auto const USD = gw["USD"];
        auto const EUR = gw["EUR"];

        STAmount const tinyUSD(USD.issue(), /*mantissa*/ 1, /*exponent*/ -81);

        {
            Env env{*this, testable_amendments()};

            env.fund(XRP(10000), alice, bob, gw);
            env.close();
            env.trust(USD(1000), alice, bob);
            env.trust(EUR(1000), alice, bob);

            STAmount const eurOffer(
                EUR.issue(), /*mantissa*/ 2957, /*exponent*/ -76);
            STAmount const usdOffer(
                USD.issue(), /*mantissa*/ 7109, /*exponent*/ -76);

            STAmount const endLoop(
                USD.issue(), /*mantissa*/ 50, /*exponent*/ -81);

            int blockedOrderBookCount = 0;
            for (STAmount initialBobUSD = tinyUSD; initialBobUSD <= endLoop;
                 initialBobUSD += tinyUSD)
            {
                // underfund bob's offer
                env(pay(gw, bob, initialBobUSD));
                env(pay(gw, alice, EUR(100)));
                env.close();

                // This offer is underfunded
                std::uint32_t bobOfferSeq = env.seq(bob);
                env(offer(bob, eurOffer, usdOffer));
                env.close();
                env.require(offers(bob, 1));

                // alice places an offer that crosses bob's.
                std::uint32_t aliceOfferSeq = env.seq(alice);
                env(offer(alice, usdOffer, eurOffer));
                env.close();

                // Examine the aftermath of alice's offer.
                {
                    bool const bobsOfferGone =
                        !offerInLedger(env, bob, bobOfferSeq);
                    STAmount aliceBalanceUSD = env.balance(alice, USD);
#if 0
                    std::cout
                        << "bobs initial: " << initialBobUSD
                        << "; alice final: " << aliceBalanceUSD
                        << "; bobs offer: " << bobsOfferJson.toStyledString()
                        << std::endl;
#endif
                    // Sanity check the ledger if alice got USD.
                    if (aliceBalanceUSD.signum() > 0)
                    {
                        BEAST_EXPECT(aliceBalanceUSD == initialBobUSD);
                        BEAST_EXPECT(env.balance(bob, USD) == USD(0));
                        BEAST_EXPECT(bobsOfferGone);
                    }

                    // Track occurrences of order book blocking.
                    if (!bobsOfferGone && aliceBalanceUSD.signum() == 0)
                    {
                        ++blockedOrderBookCount;
                    }
                }

                // In preparation for the next iteration clean up any
                // leftover offers.
                cleanupOldOffers(
                    env, {{alice, aliceOfferSeq}, {bob, bobOfferSeq}});

                // Zero out alice's and bob's IOU balances.
                auto zeroBalance = [&env, &gw](
                                       Account const& acct, IOU const& iou) {
                    if (STAmount const balance = env.balance(acct, iou);
                        balance.signum() > 0)
                        env(pay(acct, gw, balance));
                };

                zeroBalance(alice, EUR);
                zeroBalance(alice, USD);
                zeroBalance(bob, EUR);
                zeroBalance(bob, USD);
                env.close();
            }

            // None of the test cases should produce a potentially blocking
            // rate.
            BEAST_EXPECT(blockedOrderBookCount == 0);
        }
    }

    Amounts
    jsonOfferToAmounts(Json::Value const& json)
    {
        STAmount const in =
            amountFromJson(sfTakerPays, json[sfTakerPays.jsonName]);
        STAmount const out =
            amountFromJson(sfTakerGets, json[sfTakerGets.jsonName]);
        return {in, out};
    }

    void
    testSellPartialCrossOldXrpIouQChange()
    {
        // This test case was motivated by Issue #4937.  It recreates
        // the specific failure identified in that issue and samples some other
        // cases in the same vicinity to make sure that the new behavior makes
        // sense.
        testcase("exercise tfSell partial cross old XRP/IOU offer Q change");

        using namespace jtx;

        Account const gw("gateway");
        Account const alice("alice");
        Account const bob("bob");
        Account const carol("carol");
        auto const USD = gw["USD"];

        // Make one test run without fixReducedOffersV2 and one with.
        for (FeatureBitset features :
             {testable_amendments() - fixReducedOffersV2,
              testable_amendments() | fixReducedOffersV2})
        {
            // Make sure none of the offers we generate are under funded.
            Env env{*this, features};
            env.fund(XRP(10'000'000), gw, alice, bob, carol);
            env.close();

            env(trust(alice, USD(10'000'000)));
            env(trust(bob, USD(10'000'000)));
            env(trust(carol, USD(10'000'000)));
            env.close();

            env(pay(gw, alice, USD(10'000'000)));
            env(pay(gw, bob, USD(10'000'000)));
            env(pay(gw, carol, USD(10'000'000)));
            env.close();

            // Lambda that:
            //  1. Exercises one offer trio,
            //  2. Collects the results, and
            //  3. Cleans up for the next offer trio.
            auto exerciseOfferTrio =
                [this, &env, &alice, &bob, &carol, &USD](
                    Amounts const& carolOffer) -> unsigned int {
                // alice submits an offer that may become a blocker.
                std::uint32_t const aliceOfferSeq = env.seq(alice);
                static Amounts const aliceInitialOffer(USD(2), drops(3382562));
                env(offer(alice, aliceInitialOffer.in, aliceInitialOffer.out));
                env.close();
                STAmount const initialRate =
                    Quality(jsonOfferToAmounts(ledgerEntryOffer(
                                env, alice, aliceOfferSeq)[jss::node]))
                        .rate();

                // bob submits an offer that is more desirable than alice's
                std::uint32_t const bobOfferSeq = env.seq(bob);
                env(offer(bob, USD(0.97086565812384), drops(1642020)));
                env.close();

                // Now carol's offer consumes bob's and partially crosses
                // alice's.  The tfSell flag is important.
                std::uint32_t const carolOfferSeq = env.seq(carol);
                env(offer(carol, carolOffer.in, carolOffer.out),
                    txflags(tfSell));
                env.close();

                // carol's offer should not have made it into the ledger and
                // bob's offer should be fully consumed.
                if (!BEAST_EXPECT(
                        !offerInLedger(env, carol, carolOfferSeq) &&
                        !offerInLedger(env, bob, bobOfferSeq)))
                {
                    // If carol's or bob's offers are still in the ledger then
                    // further results are meaningless.
                    cleanupOldOffers(
                        env,
                        {{alice, aliceOfferSeq},
                         {bob, bobOfferSeq},
                         {carol, carolOfferSeq}});
                    return 1;
                }
                // alice's offer should still be in the ledger, but reduced in
                // size.
                unsigned int badRate = 1;
                {
                    Json::Value aliceOffer =
                        ledgerEntryOffer(env, alice, aliceOfferSeq);

                    Amounts aliceReducedOffer =
                        jsonOfferToAmounts(aliceOffer[jss::node]);

                    BEAST_EXPECT(aliceReducedOffer.in < aliceInitialOffer.in);
                    BEAST_EXPECT(aliceReducedOffer.out < aliceInitialOffer.out);
                    STAmount const inLedgerRate =
                        Quality(aliceReducedOffer).rate();
                    badRate = inLedgerRate > initialRate ? 1 : 0;

                    // If the inLedgerRate is less than initial rate, then
                    // incrementing the mantissa of the reduced TakerGets
                    // should result in a rate higher than initial.  Check
                    // this to verify that the largest allowable TakerGets
                    // was computed.
                    if (badRate == 0)
                    {
                        STAmount const tweakedTakerGets(
                            aliceReducedOffer.in.issue(),
                            aliceReducedOffer.in.mantissa() + 1,
                            aliceReducedOffer.in.exponent(),
                            aliceReducedOffer.in.negative());
                        STAmount const tweakedRate =
                            Quality(
                                Amounts{aliceReducedOffer.in, tweakedTakerGets})
                                .rate();
                        BEAST_EXPECT(tweakedRate > initialRate);
                    }
#if 0
                    std::cout << "Placed rate: " << initialRate
                              << "; in-ledger rate: " << inLedgerRate
                              << "; TakerPays: " << aliceReducedOffer.in
                              << "; TakerGets: " << aliceReducedOffer.out
                              << std::endl;
// #else
                    std::string_view filler = badRate ? "**" : "  ";
                    std::cout << "| " << aliceReducedOffer.in << "` | `"
                              << aliceReducedOffer.out << "` | `" << initialRate
                              << "` | " << filler << "`" << inLedgerRate << "`"
                              << filler << std::endl;
#endif
                }

                // In preparation for the next iteration make sure all three
                // offers are gone from the ledger.
                cleanupOldOffers(
                    env,
                    {{alice, aliceOfferSeq},
                     {bob, bobOfferSeq},
                     {carol, carolOfferSeq}});
                return badRate;
            };

            constexpr int loopCount = 100;
            unsigned int blockedCount = 0;
            {
                STAmount increaseGets = USD(0);
                STAmount const step(increaseGets.issue(), 1, -8);
                for (unsigned int i = 0; i < loopCount; ++i)
                {
                    blockedCount += exerciseOfferTrio(
                        Amounts(drops(1642020), USD(1) + increaseGets));
                    increaseGets += step;
                }
            }

            // If fixReducedOffersV2 is enabled, then none of the test cases
            // should produce a potentially blocking rate.
            //
            // Also verify that if fixReducedOffersV2 is not enabled then
            // some of the test cases produced a potentially blocking rate.
            if (features[fixReducedOffersV2])
            {
                BEAST_EXPECT(blockedCount == 0);
            }
            else
            {
                BEAST_EXPECT(blockedCount > 80);
            }
        }
    }

    void
    run() override
    {
        testPartialCrossNewXrpIouQChange();
        testPartialCrossOldXrpIouQChange();
        testUnderFundedXrpIouQChange();
        testUnderFundedIouIouQChange();
        testSellPartialCrossOldXrpIouQChange();
    }
};

BEAST_DEFINE_TESTSUITE_PRIO(ReducedOffer, app, ripple, 2);

}  // namespace test
}  // namespace ripple
